Abstract
Summary
The satellite data services market is valued at USD 5.9 billion in 2021 and is projected to reach USD 16.7 billion by 2026, at a CAGR of 23.0% from 2021 to 2026. The US government invests in every part of the smallsat ecosystem and is likely to continue investing, both at the upstream and downstream, which would positively impact the satellite data services market. The more interesting development is in the increasing investments in smallsats by other governments around the world.
In the last few years, satellite data services market has evolved considerably. Especially, the supply side has seen new technologies and new systems being introduced into operation. In addition to the impact of cloud, the satellite data services industry finds itself at the junction of two revolutions, the one being the Big Data/Artificial Intelligence (AI) and the other being the commercialization of space (through its main drivers, small and micro satellites). This market is expected to have exponential growth owing to the surge in the demand for satellite imagery data throughout various industries. In recent years, the satellite market has been experiencing advances in technology and the response of the marketplace have led to smaller sensors, satellites, and launch vehicles competent of performing valuable space missions at relatively low price. This new approach has led to an increase in the number of satellites being launched. CubeSats and Small Satellites are cheaper to manufacture in comparison to normal satellites and can be launched as a secondary payload on a rocket or larger launch vehicles that can deploy many satellites at a time into different orbits for specific verticals, such as energy & power, defense & security, agriculture, and forestry.
This research report categorizes the satellite data services market by vertical as Energy & Power, Engineering & Infrastructure, Defense & Security, Environmental, Agriculture, Maritime, Forestry, Transportation & Logistics, Insurance, Academic and Research, and Others. Based on vertical, Agriculture segment to exhibit highest CAGR in satellite data service market, from 2021-2026 forecast period. It is because satellite imagery helps in assessing detailed estimation of crop conditions and yields, the health status of the crops, and quality of vegetation.
Based on service segment, the market is divided into Image Data and Data Analytics. By service,
Data Analytics sub-segment would grow highest with a CAGR during the forecast period. Rising demand for data analytics services namely image data processing, feature extraction, digital models, and classification, required for developing GIS maps and analyzing data presented in a satellite image would boost the market.
Based on end use segment, the market is sub-divided into Government & Military, Commercial, Service Providers segments. Based on end use, Government & Military sub-segment would grow highest market share during the forecast period. Rising usage of high-quality satellite imagery in defense sector of various nations to boost the market.
By region, the market is segmented into by regions North America, Europe, Asia Pacific, Latin America and Middle East &Africa. North America is expected to dominate the market studied, during the forecast period, due to the maximum number of ongoing research studies and investments in this market, the existence of up-to dated infrastructure to undertake space programs, and the rapidest and maximum adoption of commercial satellite imaging throughout various industries in the region.
The break-up of profile of primary participants in the satellite data services market:
• By Company Type: Tier 1 – 49%, Tier 2 – 37%, and Tier 3 – 14%
• By Designation: C Level – 55%, Director Level – 27%, and Others – 18%
• By Region: North America – 55%, Europe – 27%, Asia Pacific – 9%, RoW – 9%
Key players of satellite data services market comprise Maxar Technologies (US), L3Harris Geospatial (US), Airbus (Netherlands), Planet Labs, Inc.(US) and Spire (US), ICEYE (Finland), Satellite Imaging Corporation (US0 and few others. These key players offer drones applicable for various sector and have well-equipped and strong distribution networks across the North American, European, Asia Pacific, Middle East & Africa and Latin America.
Research Coverage:
This research report studies the satellite data services market by vertical (Energy & Power, Engineering & Infrastructure, Defense & Security, Environmental, Agriculture, Maritime, Forestry, Transportation & Logistics, Insurance, Academic and Research, Others )by end use (Government & Military, Commercial, Service Providers) by services (Image Data and Data Analytics), by Deployment (Public Cloud, Private Cloud, Hybrid Cloud) and by regions (North America, Europe, Asia Pacific, Latin America and Middle East &Africa).
The satellite data services market is segmented according to five key regions in this report, namely, North America, Europe, Asia Pacific, Middle East & Africa, Latin America, along with their key countries. The scope of the report covers detailed information regarding the major factors, such as drivers, restraints, challenges, and opportunities, influencing the growth of the satellite data services market. A detailed analysis of the key industry players has been done to provide insights into their business overviews; solutions and services; key strategies; agreements, collaborations, new product launches, contracts, expansion, acquisitions, and partnerships associated with the satellite data services market.
Reasons to buy this report:
The report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall satellite data services market and the subsegments. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and to plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.
The report provides insights on the following pointers:
• Market Penetration: Comprehensive information on satellite data services offered by the top players in the market
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the satellite data services market
• Market Development: Comprehensive information about lucrative markets – the report analyzes the satellite data services market across varied regions
• Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the satellite data services market
• Competitive Assessment: In-depth assessment of market shares, growth strategies and service offerings of leading players in the satellite data services market
Table of Contents
1 INTRODUCTION 28
1.1 OBJECTIVES OF STUDY 28
1.2 MARKET DEFINITION 28
1.3 STUDY SCOPE 29
1.3.1 MARKETS COVERED 29
1.3.2 REGIONAL SCOPE 29
1.3.3 YEARS CONSIDERED FOR THE STUDY 30
1.4 INCLUSIONS & EXCLUSIONS 30
1.5 CURRENCY & PRICING 30
1.6 STUDY LIMITATIONS 31
1.7 MARKET STAKEHOLDERS 31
1.8 SUMMARY OF CHANGES 32
2 RESEARCH METHODOLOGY 33
2.1 RESEARCH DATA 33
2.1.1 REPORT PROCESS FLOW 33
2.1.2 SECONDARY DATA 34
- 2.1.2.1 Key data from secondary sources 35
2.1.3 PRIMARY DATA 35
- 2.1.3.1 Key data from primary sources 35
- 2.1.3.2 Breakdown of primaries 36
2.1.4 DEMAND-SIDE INDICATORS 36
2.1.5 SUPPLY-SIDE ANALYSIS 37
2.2 MARKET SIZE ESTIMATION & METHODOLOGY 37
2.2.1 MARKET SIZING & FORECASTING 37
2.2.2 SEGMENTS AND SUBSEGMENTS 38
- 2.2.2.1 Key industry insights 38
2.3 RESEARCH APPROACH & METHODOLOGY 39
2.3.1 BOTTOM-UP APPROACH 39
- 2.3.1.1 COVID-19 impact on market analysis 40
2.3.2 TOP-DOWN APPROACH 40
2.4 DATA TRIANGULATION 41
2.4.1 TRIANGULATION THROUGH PRIMARY AND SECONDARY RESEARCH 42
2.5 GROWTH RATE ASSUMPTIONS 42
2.6 ASSUMPTIONS FOR RESEARCH STUDY 42
2.7 LIMITATIONS 43
2.8 RISKS 43
3 EXECUTIVE SUMMARY 44
4 PREMIUM INSIGHTS 48
4.1 ATTRACTIVE GROWTH OPPORTUNITIES IN SATELLITE DATA SERVICES MARKET 48
4.2 SATELLITE DATA SERVICES MARKET, BY VERTICAL 49
4.3 SATELLITE DATA SERVICES MARKET, BY SERVICE 49
4.4 SATELLITE DATA SERVICES MARKET, BY END-USE 50
4.5 SATELLITE DATA SERVICES MARKET, BY COUNTRY 50
5 MARKET OVERVIEW 51
5.1 INTRODUCTION 51
5.2 MARKET DYNAMICS 52
5.2.1 DRIVERS 52
- 5.2.1.1 Growth of earth observation imagery and analytics 52
- 5.2.1.2 Significant advancements in geospatial imagery analytics with introduction of AI and big data 53
- 5.2.1.3 Increased launches of earth observation small satellites and CubeSats 54
- 5.2.1.4 Privatization of space industry 55
5.2.2 RESTRAINTS 56
- 5.2.2.1 Stringent government space policies and regulations 56
- 5.2.2.2 Lack of dedicated small satellite launch vehicles 57
5.2.3 OPPORTUNITIES 58
- 5.2.3.1 Increased government investment in space agencies 58
- 5.2.3.2 Need for real-time remote sensing data 60
- 5.2.3.3 Technological developments and innovations in earth observation industry 60
5.2.4 CHALLENGES 61
- 5.2.4.1 Concern over space debris 61
- 5.2.4.2 Failure of satellite launch vehicles and satellites 62
5.3 COVID-19 IMPACT ON SATELLITE DATA SERVICES MARKET 63
5.4 RANGE/SCENARIOS 65
5.5 VALUE CHAIN ANALYSIS OF SATELLITE DATA SERVICES MARKET 66
5.6 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS 67
5.6.1 REVENUE SHIFT AND NEW REVENUE POCKETS FOR SATELLITE DATA SERVICES MANUFACTURERS 67
5.7 SATELLITE DATA SERVICES MARKET ECOSYSTEM 68
5.8 AVERAGE SELLING PRICE OF SATELLITE DATA SERVICES 68
5.9 OPERATIONAL DATA 70
5.10 PORTER’S FIVE FORCES ANALYSIS 71
5.10.1 THREAT OF NEW ENTRANTS 72
5.10.2 THREAT OF SUBSTITUTES 72
5.10.3 BARGAINING POWER OF SUPPLIERS 73
5.10.4 BARGAINING POWER OF BUYERS 73
5.10.5 INTENSITY OF COMPETITIVE RIVALRY 73
5.11 TARIFF AND REGULATORY LANDSCAPE 74
5.11.1 NORTH AMERICA 74
5.11.2 EUROPE 74
5.11.3 ASIA PACIFIC 75
5.12 TRADE ANALYSIS 76
6 INDUSTRY TRENDS 77
6.1 INTRODUCTION 77
6.2 TECHNOLOGY TRENDS 77
6.2.1 ARTIFICIAL INTELLIGENCE FOR ANALYTICS-BASED DECISION MAKING 77
6.2.2 ADVANCEMENTS IN ONBOARD SENSOR TECHNOLOGIES 78
6.2.3 CLOUD COMPUTING FOR IMAGE STORAGE AND ANALYSIS 78
6.2.4 DATA ANALYTICS AND PROCESSING 79
6.2.5 INCREASING USAGE OF HYPERSPECTRAL AND MULTIPLE-SPECTRAL IMAGING IN DATA ANALYSIS 79
6.2.6 REAL-TIME ACQUISITION AND PROCESSING INTEGRATED DATA SYSTEMS (RAPIDS) 80
6.2.7 MINIATURIZATION IN SPACE TECHNOLOGY 81
6.2.8 ENHANCED SPACE IMAGERY WITH SMALL SATELLITES 81
6.2.9 DEVELOPMENT OF DEDICATED LAUNCH VEHICLES FOR SMALL SATELLITES 81
6.2.10 ENERGY STORAGE (PRIMARY & SECONDARY BATTERIES) 83
6.3 TECHNOLOGY ANALYSIS 83
6.3.1 SATELLITE IMAGERY WITH MACHINE LEARNING 83
6.3.2 ONLINE 3D RECONSTRUCTION BASED ON SATELLITE IMAGERY 83
6.4 USE CASES 84
6.4.1 USE CASE: SATELLITE IMAGERY FOR OIL SPILLS RESPONSE 84
6.4.2 USE CASE: REAL-TIME DATA TO EMERGENCY SYSTEM 84
6.4.3 USE CASE: SATELLITE IMAGERY UNVEILED EXPENSIVE INFRASTRUCTURE WORK 85
6.4.4 USE CASE: SAR IMAGERY TO STUDY BAHAMAS FLOODING 85
6.4.5 USE CASE: SATELLITE IMAGERY FOR INFECTION MAPPING 85
6.5 IMPACT OF MEGATRENDS 86
6.5.1 DEVELOPMENT OF LOW-COST ACTIVE DEBRIS REMOVAL TECHNOLOGY 86
6.5.2 SHIFT IN GLOBAL ECONOMIC POWER 86
6.5.3 PATENT ANALYSIS 86
7 SATELLITE DATA SERVICES MARKET, BY VERTICAL 89
7.1 INTRODUCTION 90
7.2 ENERGY & POWER 92
7.2.1 MINING AND MINERAL EXPLORATION 92
- 7.2.1.1 Efficiency in planning and operations through satellite data aid exploration 92
7.2.2 OIL & GAS OPERATION 92
- 7.2.2.1 Enhanced security in operations via remote monitoring utilizing satellites to drive the segment 92
- 7.2.2.2 Pipeline and transmission survey 93
- 7.2.2.3 Oil & gas exploration 93
7.2.3 RENEWABLE ENERGY SOURCES 93
- 7.2.3.1 Usage of satellite imagery with AI and big data for assessment of renewable resources to drive the segment 93
- 7.2.3.2 Wind energy 94
- 7.2.3.3 Solar energy 94
- 7.2.3.4 Hydroelectric power 94
- 7.2.3.5 Others 95
7.2.4 UTILITY 95
- 7.2.4.1 Satellite technology serves as an effective means to cut down costs and improve efficiency for utility sector 95
- 7.2.4.2 Powerline management 95
- 7.2.4.3 Underground utility monitoring 95
7.3 ENGINEERING & INFRASTRUCTURE 96
7.3.1 LAND & URBAN MANAGEMENT 96
- 7.3.1.1 Strategic planning of land use and urban development via GIS maps to drive the segment 96
- 7.3.1.2 3D urban and terrain modeling (DTM) 96
7.3.2 INDUSTRIAL AND ASSET MAPPING 97
- 7.3.2.1 Very high-resolution satellite imagery is being utilized to derive commercial benefit in global energy supply chain sector 97
- 7.3.2.2 GIS integrated LiDAR mapping 97
7.4 DEFENSE & SECURITY 97
7.4.1 SURVEILLANCE 98
- 7.4.1.1 Satellite imagery for near real-time monitoring of maritime and land activities to drive the segment 98
7.4.2 CRITICAL INFRASTRUCTURE PROTECTION 98
- 7.4.2.1 Protection and monitoring of assets via satellite data to drive the segment 98
7.4.3 CRIME MAPPING 98
7.4.4 MONITORING OF AIRFIELDS 99
- 7.4.4.1 Need for real-time data from defense organizations to drive the segment 99
7.5 ENVIRONMENTAL & WEATHER 99
7.5.1 GLOBAL CLIMATE CHANGE 99
- 7.5.1.1 Understanding the cause-effect relationship of human activity and plans for rectification to drive the segment 99
7.5.2 LAND COVER AND CHANGE DETECTION 100
- 7.5.2.1 Efficient planning and utilization of limited land resources to drive the segment 100
7.5.3 AIR & WATER POLLUTION 100
- 7.5.3.1 Mapping of risk areas via satellite imagery to combat pollution to drive the segment 100
7.5.4 NATURAL DISASTERS 100
- 7.5.4.1 Quick relief, evacuation, and damage estimation via satellite data to drive the segment 100
7.5.5 WEATHER FORECAST 100
- 7.5.5.1 Growing demand for weather monitoring systems by end-user industries to drive the segment 100
7.6 AGRICULTURE 101
7.6.1 CROP TYPE IDENTIFICATION 101
- 7.6.1.1 Enabling quick classification and species of crop using satellite imagery and machine learning to drive the segment 101
7.6.2 PRECISION FARMING 102
- 7.6.2.1 Need for increased yield in a limited field size to combat projected food deficit to drive the segment 102
7.7 MARITIME 102
7.7.1 PORT & HARBOR MONITORING 102
- 7.7.1.1 Use of geospatial intelligence with bathymetric data to improve efficiency to drive the segment 102
7.7.2 COASTAL MANAGEMENT (SURVEY WATERS, DETECT VESSELS, TRACK ACTIVITIES, TRACK OIL SPILLS) 102
- 7.7.2.1 Tracking vessels and automatic identification of non-communicative vessels to drive the segment 102
7.7.3 SEARCH AND RESCUE 103
- 7.7.3.1 Durability and wider access of satellite imagery to drive the segment 103
7.7.4 ILLEGAL FISHING MONITORING 103
- 7.7.4.1 Capability of SAR satellite imagery to work under any weather condition to drive the segment 103
7.8 FORESTRY 103
7.8.1 FOREST COVER MAPPING 103
- 7.8.1.1 Satellite imagery provides longer-term evaluation of forest dynamics 103
7.8.2 EMERGENCY WILDFIRE MONITORING 104
- 7.8.2.1 Satellite imagery provides near real-time feed about wildfires 104
7.9 TRANSPORTATION & LOGISTICS 104
7.9.1 TRANSPORTATION ROUTE PLANNING 104
- 7.9.1.1 Satellite imagery offers a valuable method of monitoring state of road networks 104
7.9.2 TRANSPORTATION AND LOGISTICS SITE PLANNING 105
- 7.9.2.1 Satellite imagery helps in delivering foundation for an enterprise map 105
7.9.3 TRAFFIC MANAGEMENT 105
- 7.9.3.1 Ability of EO satellites to relieve congestion on roads and monitor accidents to drive the segment 105
7.10 INSURANCE 105
7.10.1 FLOOD MONITORING 106
- 7.10.1.1 Quickly assess the estimated damage and verify integrity of claims via satellite data 106
7.10.2 PROPERTY DAMAGE ESTIMATION 106
- 7.10.2.1 Accurately estimate damage caused to property due to natural calamities 106
7.11 ACADEMIC AND RESEARCH 106
7.11.1 GROWING USAGE OF SATELLITE IMAGERY BY UNIVERSITIES AND STUDENTS TO DRIVE THE SEGMENT 106
7.12 OTHERS 106
8 SATELLITE DATA SERVICES MARKET, BY END USE 107
8.1 INTRODUCTION 108
8.2 GOVERNMENT & MILITARY 109
8.2.1 NATIONAL SPACE AGENCIES 109
- 8.2.1.1 Increased use for planet monitoring by space agencies 109
8.2.2 DEPARTMENTS OF DEFENSE 110
- 8.2.2.1 Need for real-time actionable insights for remote operations 110
8.2.3 NATIONAL SECURITY AGENCIES 110
- 8.2.3.1 Wide adoption for monitoring borders and critical infrastructure 110
8.2.4 ACADEMIC AND RESEARCH INSTITUTIONS 111
- 8.2.4.1 Increased use of high-resolution imagery and SAR for academic research 111
8.2.5 DEPARTMENTS OF ENVIRONMENT & AGRICULTURE 111
- 8.2.5.1 Precision agriculture for increasing yield 111
8.2.6 NATIONAL MAPPING & TOPOGRAPHIC AGENCIES 111
- 8.2.6.1 Up-to-date mapping of geological structures 111
8.2.7 OTHERS 111
8.3 COMMERCIAL 112
8.3.1 GEOLOGICAL COMPANIES 112
- 8.3.1.1 Extensive use in data collection for scientific databases 112
8.3.2 MAPPING AND CARTOGRAPHIC COMPANIES 112
- 8.3.2.1 Creation of basemaps for other industrial applications 112
8.3.3 MINING, OIL, AND GAS COMPANIES 112
- 8.3.3.1 Monitoring pipelines via satellite in near real-time 112
8.3.4 TRANSPORT, CONSTRUCTION, AND INFRASTRUCTURE COMPANIES 113
- 8.3.4.1 Track large project developments, shipping routes, and construction sites 113
8.3.5 SATELLITE OPERATORS/OWNERS 113
- 8.3.5.1 Increased demand for satellite imagery from various industries for new use cases 113
8.3.6 MEDIA AND ENTERTAINMENT 113
- 8.3.6.1 Use in films for adding realistic scenery 113
8.3.7 OTHERS 114
8.4 SERVICE PROVIDERS 114
9 SATELLITE DATA SERVICES MARKET, BY SERVICE 115
9.1 INTRODUCTION 116
9.2 IMAGE DATA 117
9.2.1 SPATIAL 117
- 9.2.1.1 Very high resolution 117
- 9.2.1.1.1 Extensive application in defense and security 117
- 9.2.1.2 High resolution 117
- 9.2.1.2.1 Employed in pipeline monitoring 117
- 9.2.1.3 Medium-low resolution 117
- 9.2.1.3.1 Need for tracking land cover changes at global level 117
- 9.2.1.1 Very high resolution 117
9.2.2 SPECTRAL 118
- 9.2.2.1 Rising demand for base maps in urban development 118
9.2.3 TEMPORAL 118
- 9.2.3.1 Increased usage in 3D urban and land use mapping 118
9.2.4 RADIOMETRIC 118
- 9.2.4.1 Increased use in natural resource monitoring 118
9.3 DATA ANALYTICS 119
9.3.1 IMAGE DATA PROCESSING 119
- 9.3.1.1 Pan-sharpening 119
- 9.3.1.1.1 Growing demand for high-resolution images 119
- 9.3.1.2 Orthorectification 119
- 9.3.1.2.1 Increased use of topographically diverse landscape in various verticals 119
- 9.3.1.3 Mosaicking 120
- 9.3.1.3.1 Application of mosaicking in creating 3D terrain maps 120
- 9.3.1.4 Cloud patching 120
- 9.3.1.4.1 Application of cloud patching in creating GIS maps 120
- 9.3.1.5 Aerial Triangulation 120
- 9.3.1.5.1 Control and mapping projects to drive market 120
- 9.3.1.1 Pan-sharpening 119
9.3.2 FEATURE EXTRACTION 120
- 9.3.2.1 Need for urban monitoring via satellite to assess development 120
9.3.3 DIGITAL MODELS 120
- 9.3.3.1 Digital Terrain Models (DTM) 121
- 9.3.3.1.1 Need for base maps with natural features 121
- 9.3.3.2 Digital Surface Models (DSM) 121
- 9.3.3.2.1 Needed for vegetation management 121
- 9.3.3.3 Digital Elevation Models (DEM) 121
- 9.3.3.3.1 Use of base map for other applications 121
- 9.3.3.1 Digital Terrain Models (DTM) 121
9.3.4 CLASSIFICATION 121
- 9.3.4.1 Object classification or identification 121
- 9.3.4.1.1 Need to identify and classify objects as friend or enemy 121
- 9.3.4.2 Land cover and change detection 122
- 9.3.4.2.1 Monitoring impact of urbanization on land and environment 122
- 9.3.4.1 Object classification or identification 121
10 SATELLITE DATA SERVICES MARKET, BY DEPLOYMENT 123
10.1 INTRODUCTION 123
10.2 PUBLIC CLOUD 123
10.3 PRIVATE CLOUD 123
10.4 HYBRID CLOUD 123
11 SATELLITE DATA SERVICES MARKET, BY REGION 124
11.1 INTRODUCTION 125
11.2 IMPACT OF COVID-19 ON SATELLITE DATA SERVICES MARKET 127
11.3 NORTH AMERICA 127
11.3.1 PESTLE ANALYSIS: NORTH AMERICA 128
11.3.2 US 132
- 11.3.2.1 Rapid adoption of AI in satellite imagery to drive the market 132
11.3.3 CANADA 135
- 11.3.3.1 Various government-backed initiatives to enhance space technologies to drive the market 135
11.4 EUROPE 137
11.4.1 PESTLE ANALYSIS: EUROPE 138
11.4.2 RUSSIA 143
- 11.4.2.1 Multiple planned launches of satellites for earth observation drives market in Russia 143
11.4.3 GERMANY 145
- 11.4.3.1 Need for satellites to monitor critical infrastructure to strengthen German market 145
11.4.4 FRANCE 148
- 11.4.4.1 Rise in usage of satellite imagery for defense fuels demand for satellite data services in France 148
11.4.5 UK 150
- 11.4.5.1 Remote-sensing satellites for marine applications to boost demand in UK 150
11.4.6 NETHERLANDS 153
- 11.4.6.1 Use of satellite imagery for asset integrity monitoring to push satellite data services in Netherlands 153
11.4.7 SPAIN 155
- 11.4.7.1 Increasing use of satellites for military operations to contribute majorly to satellite data services in Spain 155
11.4.8 REST OF EUROPE 158
- 11.4.8.1 Financial support by national agencies to existing market players creates opportunities for innovations in space sector 158
11.5 ASIA PACIFIC 160
11.5.1 PESTLE ANALYSIS: ASIA PACIFIC 161
11.5.2 CHINA 166
- 11.5.2.1 Multiple planned launches of satellites for Earth observation 166
11.5.3 AUSTRALIA 168
- 11.5.3.1 Increased use of imagery for urban planning 168
11.5.4 INDIA 171
- 11.5.4.1 Need for satellite imagery for precision farming 171
11.5.5 JAPAN 173
- 11.5.5.1 Use of satellite imagery to monitor volcanic activity 173
11.5.6 SOUTH KOREA 176
- 11.5.6.1 Monitoring environment & climate change via satellite imagery 176
11.5.7 SINGAPORE 178
- 11.5.7.1 Use of satellites for monitoring oil and gas operations 178
11.6 MIDDLE EAST & AFRICA 181
11.6.1 PESTLE ANALYSIS: MIDDLE EAST & AFRICA 181
11.6.2 ISRAEL 185
- 11.6.2.1 Multiple planned launches of satellites for military support to drive Israeli market 185
11.6.3 SAUDI ARABIA 187
- 11.6.3.1 Need for satellites to monitor oil fields and shipping routes to fuel market in Saudi Arabia 187
11.6.4 UAE 190
- 11.6.4.1 Space missions to support local industry in UAE 190
11.6.5 SOUTH AFRICA 192
- 11.6.5.1 Increase in use of remote-sensing satellites for precision farming to push demand in South Africa 192
11.7 LATIN AMERICA 195
11.7.1 PESTLE ANALYSIS: LATIN AMERICA 195
11.7.2 BRAZIL 198
- 11.7.2.1 Use of satellite imagery and analytics for environmental monitoring to positively influence Brazilian market 198
11.7.3 MEXICO 201
- 11.7.3.1 Use of satellite imagery to monitor energy & power operations to command greater demand in Mexico 201
12 COMPETITIVE LANDSCAPE 204
12.1 INTRODUCTION 204
12.2 KEY PLAYERS IN SATELLITE DATA SERVICES MARKET 204
12.3 RANKING OF LEADING PLAYERS SATELLITE DATA SERVICES, 2020 205
12.4 SATELLITE DATA SERVICES: MARKET SHARE ANALYSIS 205
12.4.1 SATELLITE DATA SERVICES MARKET: WINNING IMPERATIVES BY KEY PLAYERS 206
12.5 COMPETITIVE LEADERSHIP MAPPING 208
12.5.1 VISIONARY LEADERS 208
12.5.2 INNOVATORS 208
12.5.3 DYNAMIC DIFFERENTIATORS 208
12.5.4 EMERGING COMPANIES 208
12.6 SATELLITE DATA SERVICES MARKET, COMPETITIVE LEADERSHIP MAPPING (STARTUPS) 210
12.6.1 PROGRESSIVE COMPANIES 210
12.6.2 RESPONSIVE COMPANIES 210
12.6.3 DYNAMIC COMPANIES 210
12.6.4 STARTING BLOCKS 210
12.7 COMPETITIVE BENCHMARKING 212
12.8 COMPETITIVE SCENARIO 217
12.8.1 PRODUCT LAUNCHES, 2018-2021 217
12.8.2 CONTRACTS, PARTNERSHIPS, AND AGREEMENTS 218
12.8.3 COLLABORATIONS AND EXPANSIONS 223
13 COMPANY PROFILES 224
13.1 INTRODUCTION 224
13.2 KEY PLAYERS 224
13.2.1 AIRBUS 224
13.2.2 MAXAR TECHNOLOGIES 229
13.2.3 L3HARRIS GEOSPATIAL 234
13.2.4 PLANET LABS, INC. 237
13.2.5 SATELLITE IMAGING CORPORATION 240
13.2.6 ICEYE 242
13.2.7 URSA SPACE SYSTEMS 244
13.2.8 SATPALDA GEOSPATIAL SERVICES 246
13.2.9 EARTH-I LTD. 248
13.2.10 LAND INFO WORLDWIDE MAPPING 250
13.2.11 IMAGESAT INTERNATIONAL (ISI) 252
13.2.12 CEINSYS TECH LTD. 254
13.2.13 EAST VIEW GEOSPATIAL 257
13.2.14 TRIMBLE INC. 259
13.2.15 SPECTIR 262
13.2.16 GEOSPATIAL INTELLIGENCE PYT. LTD. 263
13.2.17 GISAT S.R.O. 266
13.2.18 PLANETOBSERVER 268
13.2.19 BIRD.I LTD. 270
13.2.20 BLACKSKY 271
13.2.21 ESRI 273
13.2.22 RMSI 274
13.2.23 ORBITAL INSIGHT 276
13.2.24 SPIRE GLOBAL 277
13.3 OTHER PLAYERS 279
13.3.1 DESCARTES LABS 279
13.3.2 SATELYTICS 280
13.3.3 APOLLO MAPPING 280
13.3.4 PIXXEL MAPPING 281
13.3.5 HERE TECHNOLOGIES 281
14 APPENDIX 282
14.1 DISCUSSION GUIDE 282
14.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 284
14.3 AVAILABLE CUSTOMIZATIONS 286
14.4 RELATED REPORTS 286
14.5 AUTHOR DETAILS 287